CN212421354U - Synchronous telescoping device of multisection arm - Google Patents

Abstract

A multi-section mechanical arm synchronous telescopic device comprises a driving device, a fixed arm and a telescopic arm; the telescopic arms are provided with a plurality of fixed arms, and the fixed arms and the telescopic arms are sequentially nested in a sliding manner to form a telescopic device; the lower end parts of the fixed arm and the telescopic arm are provided with sliding seal guide structures; the driving device and the fixing arm are flexibly connected; when the multi-section mechanical arm synchronous telescopic device moves, the driving device drives the outermost telescopic arm

Arm of extension and contraction

Other telescopic arms are driven by a movable chain wheel and a chain to realize telescopic motion; the multi-section mechanical arm synchronous telescopic device of the utility model adopts a sliding seal guide structure, solves the sealing problem of a driving device, a chain wheel and a chain, thereby preventing the abrasion and the blocking problem in the sand blasting production environment; the flexible connection method between the driving device and the fixed arm is adopted, so that the problem of bending moment damage at the joint of the lead screw and the fixed arm is solved, and the service life of the driving device is greatly prolonged.

Description

Synchronous telescoping device of multisection arm

Technical Field

The utility model relates to a large-scale equipment part sandblast is with flexible arm technical field, concretely relates to synchronous telescoping device of multisection arm.

Background

In the existing sand blasting process, the sand blasting for large equipment parts currently adopts a mode that two hydraulic cylinders are connected in series to drive so as to realize the extension and retraction of a mechanical structure, and the extension and retraction stroke of the structure is limited due to the size of the hydraulic cylinders, so that the structure cannot be applied to certain large equipment parts with large height difference; meanwhile, the problem of leakage of hydraulic oil still exists in the existing mechanical telescopic structure with two sections of hydraulic cylinders connected in series and in use, and oil supplement maintenance needs to be carried out regularly.

A national utility model patent with the application number of CN 207497942U discloses a crane jib telescopic mechanism; the technical scheme disclosed in the utility model relates to two sets of driving mechanisms which are respectively driven by a motor and a piston rod and are driven by a pulley block, but in the scheme, the motion of a telescopic arm can be realized only by controlling the two sets of driving mechanisms simultaneously, and the transmission of power is realized by the complex winding of a steel wire rope in the middle driving mechanism; in the scheme, the final transmission precision is reduced due to the elasticity of the steel wire rope at the moment of starting and stopping, and the steel wire rope cannot be well used for the requirement of a sand blasting process.

The national invention patent with the application number of CN 107445080A discloses a steel wire pulley rope group synchronous telescopic device with large telescopic ratio, wherein the device mainly drives a scissor mechanism to realize the formed amplification through the characteristic of linear motion of a screw rod, and each section of telescopic arm piece realizes the motion of the mechanism through the arrangement of the pulley steel wire rope group; however, the mechanism has the defects that the scissor mechanism needs higher precision in the processing and assembling process, cannot be well suitable for the environment of heavy dust, and the scissor structure is formed by connecting a plurality of scissor forks in series, so that a great accumulated error is caused, and the mechanism cannot be well applied to the requirement of the sand blasting process.

The national invention patent with the application number of CN 108098750A discloses a telescopic robot arm which is realized by using a joint arm structure which sequentially slides and nests step by step, two adjacent joint arms drive a chain to slide through a chain wheel, the motion is stable, the strength is higher, and a screw rod and a screw seat are matched to provide power for the telescopic arm of the robot; but the chain wheel, the chain, the guide wheel, the lead screw and the nut which are arranged on the telescopic arm are all exposed structures, and when the telescopic arm is applied to sand blasting production, the chain wheel, the chain, the guide wheel, the lead screw and the nut are easy to wear and block due to large dust in the production environment; in addition, a lead screw of the driving mechanism is fixedly arranged on the fixed arm, when the telescopic arm of the robot extends to a larger length, the swinging of the arm of the robot can cause the connection part of the lead screw and the fixed arm to generate bending moment damage, so that the service life of the telescopic arm of the robot is influenced, and the telescopic arm of the robot can not be well applied to a sand blasting process environment.

Disclosure of Invention

In order to overcome the defects in the background technology, the utility model discloses a multi-section mechanical arm synchronous telescopic device; comprises a driving device, a fixed arm and a telescopic arm; the telescopic arms are provided with a plurality of fixed arms, and the fixed arms and the telescopic arms are sequentially nested in a sliding manner to form a telescopic device; the lower end parts of the fixed arm and the telescopic arm are provided with sliding seal guide structures; the driving device and the fixing arm are flexibly connected; when the multi-section mechanical arm synchronous telescopic device moves, the driving device drives the outermost telescopic arm

Arm of extension and contraction

The other telescopic arms are driven by the movable chain wheel and the chain to realize telescopic motion.

In order to realize the purpose, the utility model adopts the following technical scheme: a multi-section mechanical arm synchronous telescopic device comprises a driving device, a fixed arm and a telescopic arm; the telescopic arm is provided with a plurality of telescopic arms, and the fixed arm and the plurality of telescopic arms are sequentially nested in a sliding manner to form a telescopic devicePlacing; the driving device and the fixed arm are flexibly connected, when the multi-section mechanical arm synchronous telescopic device extends to a larger position, the swinging of the telescopic arm cannot be transmitted to the driving device due to the flexible connection between the driving device and the fixed arm, and the problem of damage to the driving device caused by the swinging of the telescopic arm is solved; when the multi-section mechanical arm synchronous telescopic device acts, the driving device drives the outermost telescopic arm of the plurality of telescopic arms which are sequentially nested in a sliding mode, and the outermost telescopic arm is a telescopic arm

(ii) a The upper parts of the telescopic arms outside the telescopic arms at the innermost layer are provided with movable chain wheels, the movable chain wheels are provided with chains, one ends of the chains are fixedly connected with the fixed arms at the outer sides of the telescopic arms connected with the movable chain wheels or the lower ends of the telescopic arms, and the other ends of the chains are fixedly connected with the upper ends of the telescopic arms at the inner sides of the telescopic arms connected with the movable chain wheels; the movable chain wheel and the chain form a driving mechanism which sequentially slides and nests the telescopic arm, when the movable chain wheel moves along with the telescopic arm connected with the movable chain wheel, the movement stroke of the telescopic arm at the inner side of the telescopic arm connected with the movable chain wheel can be amplified by one time, so that the multi-section mechanical arm synchronous telescopic device has a great stroke range and can fully meet the requirement of sand blasting on large equipment parts with large height difference; the lower end part of the telescopic arm outside the telescopic arm at the innermost layer is provided with a sliding seal guide structure, when the telescopic arm sequentially slides and nests to perform telescopic motion, the sliding seal guide structure plays a role in guiding and sealing, the connection rigidity between the telescopic arms is improved, external dust is prevented from entering an inner side cavity of the telescopic arm, and the problems of abrasion and blocking caused by dust entering of a chain wheel, a chain and a driving device are solved.

Furthermore, a driving head is arranged on the driving device, and the driving head moves along the axis of the driving device to provide driving force; the driving device and the fixed arm are connected through a fixed frame, wherein the driving device is connected with the fixed frame through a flexible connecting structure, and the fixed arm is fixedly connected with the fixed frame through a bolt; the fixed arm upper portion is provided with the fixed arm and decides the sprocket, and the fixed arm is fixed to be provided with on the sprocket and decides the sprocket chain, decides sprocket chain one end and drive head downThe end part is fixedly connected, and the other end is connected with a telescopic arm

The upper ends of the two are fixedly connected; when the driving head moves downwards, the driving head drives one end of the fixed chain wheel chain to move downwards, and after the fixed chain wheel chain bypasses the fixed arm and the fixed chain wheel, the other end of the fixed chain wheel chain pulls the telescopic arm

Moving upwards; swinging of telescopic boom, especially telescopic boom, when multi-section mechanical arm synchronous telescopic device is extended to large position

The swing of (2) can be eliminated through the fixed chain wheel chain in flexible connection, even when the swing is transmitted to the driving device through the fixed chain wheel chain, the driving device is connected with the fixed frame through the flexible connection structure, so that the influence of bending moment damage caused by the swing of the telescopic arm is completely eliminated on the driving device.

Preferably, the driving device is provided with a driving head; the driving device and the fixed arm are fixedly connected through a fixed frame; the upper part of the fixed arm is provided with a fixed chain wheel, the fixed chain wheel is provided with a fixed chain wheel chain, one end of the fixed chain wheel chain is connected with the lower end part of the driving head through a flexible connecting structure, and the other end of the fixed chain wheel chain is connected with the telescopic arm

The upper ends of the two are fixedly connected; when the driving head moves downwards, the driving head drives one end of the fixed chain wheel chain to move downwards, and after the fixed chain wheel chain bypasses the fixed arm and the fixed chain wheel, the other end of the fixed chain wheel chain pulls the telescopic arm

Moving upwards; swinging of telescopic boom, especially telescopic boom, when multi-section mechanical arm synchronous telescopic device is extended to large position

Pendulum ofThe movement can be eliminated through the fixed chain wheel chain in flexible connection, and even when the swing is transmitted to the driving device through the fixed chain wheel chain, the fixed chain wheel chain is connected with the lower end part of the driving head through the flexible connection structure, so that the influence of bending moment damage caused by the swing of the telescopic arm is completely eliminated on the driving device.

Preferably, the driving device is provided with a driving head; the driving device and the fixed arm are connected through a fixed frame, wherein the driving device is connected with the fixed frame through a flexible connecting structure, and the fixed arm is fixedly connected with the fixed frame through a bolt; the lower end part of the driving head and the telescopic arm

Fixedly connecting; when the driving head moves downwards, the driving head directly drives the telescopic arm

Moving downwards; swinging of telescopic boom, especially telescopic boom, when multi-section mechanical arm synchronous telescopic device is extended to large position

When the swing is transmitted to the driving device through the driving head, the driving device is connected with the fixed frame through the flexible connecting structure, so that the influence of bending moment damage caused by the swing of the telescopic arm is completely eliminated on the driving device.

Preferably, the driving device is provided with a driving head; the driving head and the fixed arm are connected through a fixed frame, wherein the driving head is connected with the fixed frame through a flexible connecting structure, and the fixed arm is fixedly connected with the fixed frame through a bolt; the driving device and the telescopic arm

Fixedly connecting; when the driving device moves downwards, the driving device directly drives the telescopic arm

Moving downwards; when the multi-section mechanical arm synchronous telescopic device extends toSwinging of telescopic boom, especially telescopic boom, in larger positions

When the swing of the telescopic boom is transferred to the driving head through the driving device, the driving head is connected with the fixed frame through the flexible connecting structure, so that the influence of bending moment damage caused by the swing of the telescopic boom is completely eliminated on the driving device.

Preferably, the flexible connection structure is a hinge, or a universal connector, or a universal coupling.

Preferably, the driving device is an electric telescopic cylinder, a hydraulic cylinder or a screw and nut driving mechanism.

Furthermore, a movable chain wheel and a chain which are driven reversely are arranged on the telescopic arm so as to realize bidirectional power driving of the multi-section mechanical arm synchronous telescopic device.

Preferably, the movable chain wheel and the fixed chain wheel of the fixed arm are pulleys, belt pulleys, synchronous toothed wheels or chain guide wheels; the chain and the fixed chain wheel chain are steel wire ropes, belts, synchronous toothed belts or iron chains.

Due to the adoption of the technical scheme, the utility model discloses a multi-section mechanical arm synchronous telescopic device; comprises a driving device, a fixed arm and a telescopic arm; the telescopic arms are provided with a plurality of fixed arms, and the fixed arms and the telescopic arms are sequentially nested in a sliding manner to form a telescopic device; the lower end parts of the fixed arm and the telescopic arm are provided with sliding seal guide structures; the driving device and the fixing arm are flexibly connected; when the multi-section mechanical arm synchronous telescopic device moves, the driving device drives the outermost telescopic arm

Arm of extension and contraction

Other telescopic arms are driven by a movable chain wheel and a chain to realize telescopic motion; the utility model discloses a synchronous telescoping device of multisection arm adopts sliding seal guide structure, has solved the secret of drive arrangement, sprocket, chainSealing problems, thus preventing wear and seizure problems in a grit blasting production environment; the flexible connection method between the driving device and the fixed arm is adopted, so that the problem of bending moment damage at the joint of the driving device and the fixed arm is solved, and the service life of the driving device is greatly prolonged; the utility model discloses a synchronous telescoping device of multisection arm has that stroke range is big, reliable operation, long service life's advantage under the many dirt conditions of sandblast, can be fine be applied to sandblast process environment, and satisfied the sandblast demand of the great large-scale equipment part of difference in height.

Drawings

FIG. 1 is a schematic structural view of a multi-section mechanical arm synchronous telescopic device;

FIG. 2 is a top view of the embodiment;

FIG. 3 is a sectional view of the first embodiment along the line A-A;

FIG. 4 is a cross-sectional view of the first embodiment along the line B-B;

FIG. 5 is an enlarged view of part A;

FIG. 6 is an enlarged view of part B;

FIG. 7 is an enlarged view of a portion C;

FIG. 8 is an enlarged view of a portion D;

FIG. 9 is a schematic structural view according to the second embodiment;

FIG. 10 is a schematic view of a third structure of the embodiment;

FIG. 11 is a diagram illustrating a fourth exemplary embodiment.

In the figure: 1. a drive device; 1.1, a driving head; 2. a fixed arm; 2.1, fixing the fixed chain wheel; 2.1.1, a fixed chain wheel and a fixed chain wheel; 3. telescopic arm

(ii) a 3.1, Telescopic arm

A movable chain wheel; 3.1.1, chain

(ii) a 4. Telescopic arm

(ii) a 4.1, Telescopic arm

A movable chain wheel; 4.1.1, chain

(ii) a 5. Telescopic arm

(ii) a 6. A flexible connection mechanism; 7. a telescopic fixing frame; 8. and a sliding seal guide structure.

Detailed Description

The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.

The first embodiment is as follows: a multi-section mechanical arm synchronous telescopic device comprises a driving device 1, a fixed arm 2 and a telescopic arm; the driving device 1 is an electric telescopic cylinder, and the lower part of the driving device is provided with a driving head 1.1 in a sliding way; the number of the telescopic arms is three, and the telescopic arms are respectively telescopic arms

3. Telescopic arm

4. Telescopic arm

5 fixed arm 2 and telescopic arm

3. Telescopic arm

4. Telescopic arm

5, sequentially sliding and nesting to form a telescopic device; the electric telescopic deviceThe cylinder, the fixed arm 2 and the fixed frame 7 are fixedly connected through bolts; the upper part of the fixed arm 2 is provided with a fixed chain wheel 2.1, the fixed chain wheel 2.1 is provided with a fixed chain wheel chain 2.1.1, one end of the fixed chain wheel chain 2.1.1 is connected with the lower end part of the driving head 1.1 through a hinge seat, and the other end is connected with the telescopic arm

3, the upper ends are fixedly connected; the telescopic arm

3 a telescopic arm is arranged at the upper part

Moving sprocket 3.1, telescopic arm

A chain is arranged on the movable chain wheel 3.1

3.1.1, chain

3.1.1 one end is fixed at the lower end of the fixed arm 2, and the other end is fixed at the telescopic arm

4, upper end; the telescopic arm

4 a telescopic arm is arranged at the upper part

Moving chain 4.1, telescopic arm

The movable chain wheel 4.1 is provided with a chain

4.1.1, chain

4.1.1 one end is fixed on the telescopic arm

3 the lower end and the other end are fixed on a telescopic arm

5, the upper end; the fixed arm 2 and the telescopic arm

3. Telescopic arm

4, sliding sealing guide structures 8 are arranged at the lower ends of the guide rods; when the drive head 1.1 moves upwards, the telescopic arm

3. Telescopic arm

4. Telescopic arm

5, moving downwards under the action of self gravity; when the driving head 1.1 moves downwards, the chain passes through the fixed chain wheel 2.1.1 and the chain

3.1.1, chain

4.1.1 pulling the telescopic arms respectively

3. Telescopic arm

4. Telescopic arm

5 move synchronously upwards.

Example two: a multi-section mechanical arm synchronous telescopic device comprises a driving device 1, a fixed arm 2 and a telescopic arm; the driving device 1 is a hydraulic cylinder, and a piston rod is arranged at the lower part of the hydraulic cylinder in a sliding way; the number of the telescopic arms is three, and the telescopic arms are respectively telescopic arms

3. Telescopic arm

4. Telescopic arm

5 fixed arm 2 and telescopic arm

3. Telescopic arm

4. Telescopic arm

5, sequentially sliding and nesting to form a telescopic device; the hydraulic cylinder is connected with the fixed frame 7 through a hinge; the fixed arm 2 is fixedly connected with the fixed frame 7 through bolts; the upper part of the fixed arm 2 is provided with a fixed chain wheel 2.1, the fixed chain wheel 2.1 is provided with a fixed chain wheel chain 2.1.1, one end of the fixed chain wheel chain 2.1.1 is fixedly connected with the lower end part of the driving head 1.1, and the other end is fixedly connected with the telescopic arm

3, the upper ends are fixedly connected; the telescopic arm

3 a telescopic arm is arranged at the upper part

Moving sprocket 3.1, telescopic arm

A chain is arranged on the movable chain wheel 3.1

3.1.1, chain

3.1.1 one end is fixed at the lower end of the fixed arm 2, and the other end is fixed at the telescopic arm

4, upper end; the telescopic arm

4 a telescopic arm is arranged at the upper part

Moving chain 4.1, telescopic arm

The movable chain wheel 4.1 is provided with a chain

4.1.1, chain

4.1.1 one end is fixed on the telescopic arm

3 the lower end and the other end are fixed on a telescopic arm

5, the upper end; the fixed arm 2 and the telescopic arm

3. Telescopic arm

4 lower endAre provided with sliding sealing guide structures 8; when the drive head 1.1 moves upwards, the telescopic arm

3. Telescopic arm

4. Telescopic arm

5, moving downwards under the action of self gravity; when the driving head 1.1 moves downwards, the chain passes through the fixed chain wheel 2.1.1 and the chain

3.1.1, chain

4.1.1 pulling the telescopic arms respectively

3. Telescopic arm

4. Telescopic arm

5 move synchronously upwards.

Example three: a multi-section mechanical arm synchronous telescopic device comprises a driving device 1, a fixed arm 2 and a telescopic arm; the driving device 1 is a hydraulic cylinder, and a piston rod is arranged at the lower part of the hydraulic cylinder in a sliding way; the telescopic arms are provided with two telescopic arms respectively

3. Telescopic arm

4, fixed arm 2 and telescopic arm

3、Telescopic arm

4, sequentially sliding and nesting to form a telescopic device; the lower end part of the piston rod and the telescopic arm

3, fixedly connecting; the hydraulic cylinder is connected with the fixed frame 7 through a universal connector; the fixed arm 2 is fixedly connected with the fixed frame 7 through bolts; the telescopic arm

3 a telescopic arm is arranged at the upper part

Moving sprocket 3.1, telescopic arm

A chain is arranged on the movable chain wheel 3.1

3.1.1, chain

3.1.1 one end is fixed at the lower end of the fixed arm 2, and the other end is fixed at the telescopic arm

4, upper end; the fixed arm 2 and the telescopic arm

The lower ends of the two sliding plates 3 are provided with sliding sealing guide structures 8; when the piston rod moves downwards, the telescopic arm

3. Telescopic arm

4, moving downwards under the action of self gravity; when the piston rod moves upwardsWhile passing through the chain

3.1.1 pulling Telescopic arm

4 and telescopic arm

3 move synchronously upwards.

Example four: a multi-section mechanical arm synchronous telescopic device comprises a driving device 1, a fixed arm 2 and a telescopic arm; the driving device 1 is a screw nut driving mechanism; the telescopic arms are provided with two telescopic arms respectively

3. Telescopic arm

4, fixed arm 2 and telescopic arm

3. Telescopic arm

4, sequentially sliding and nesting to form a telescopic device; the lead screw is connected with a motor reducer on the fixing frame 7 through a universal coupling, and the nut is fixedly connected with the telescopic arm

3; the fixed arm 2 is fixedly connected with the fixed frame 7 through bolts; the telescopic arm

3 a telescopic arm is arranged at the upper part

Pulley, telescopic arm

A steel wire rope is arranged on the pulley, one end of the steel wire rope is fixed at the lower end of the fixed arm 2, and the other end of the steel wire rope is fixed at the telescopic arm

4, upper end; the fixed arm 2 and the telescopic arm

The lower ends of the two sliding plates 3 are provided with sliding sealing guide structures 8; when the screw rod rotates to make the nut move downwards, the telescopic arm

3. Telescopic arm

4, moving downwards under the action of self gravity; when the screw rod rotates to enable the nut to move upwards, the telescopic arm is pulled through the steel wire rope

4 and telescopic arm

3 move synchronously upwards.

The part of the utility model not detailed is prior art.

Claims (9)

1. A multi-section mechanical arm synchronous telescopic device comprises a driving device (1), a fixed arm (2) and a telescopic arm; the telescopic arms are provided with a plurality of fixed arms (2) and a plurality of telescopic arms which are sequentially nested in a sliding manner to form a telescopic device,

the method is characterized in that: the driving device (1) and the fixing arm (2) are in flexible connection; the driving device (1) drives the outermost telescopic arm of a plurality of telescopic arms which are sequentially nested in a sliding mode, and the outermost telescopic arm is a telescopic arm I (3); the upper parts of the telescopic arms outside the telescopic arms at the innermost layer are provided with movable chain wheels, the movable chain wheels are provided with chains, one ends of the chains are fixedly connected with the fixed arms (2) at the outer sides of the telescopic arms connected with the movable chain wheels or the lower ends of the telescopic arms, and the other ends of the chains are fixedly connected with the upper ends of the telescopic arms at the inner sides of the telescopic arms connected with the movable chain wheels; the lower end parts of the telescopic arms outside the telescopic arms at the innermost layer are provided with sliding seal guide structures.

2. The multi-section mechanical arm synchronous telescoping device of claim 1, wherein: the driving device (1) is provided with a driving head (1.1); the driving device (1) and the fixed arm (2) are connected through a fixed frame (7), wherein the driving device (1) is connected with the fixed frame (7) through a flexible connecting structure (6), and the fixed arm (2) is fixedly connected with the fixed frame (7) through a bolt; fixed arm (2) upper portion is provided with fixed arm fixed sprocket (2.1), and fixed arm fixed sprocket (2.1) is last to be provided with fixed sprocket chain (2.1.1), and fixed sprocket chain (2.1.1) one end and drive head (1.1) lower tip fixed connection, the upper end fixed connection of the other end and flexible arm I (3).

3. The multi-section mechanical arm synchronous telescoping device of claim 1, wherein: the driving device (1) is provided with a driving head (1.1); the driving device (1) and the fixed arm (2) are fixedly connected through a fixed frame (7); fixed arm (2) upper portion is provided with fixed arm fixed sprocket (2.1), and fixed arm fixed sprocket (2.1) is last to be provided with fixed sprocket chain (2.1.1), and fixed sprocket chain (2.1.1) one end passes through hinge structure fixed connection with drive head (1.1) lower tip, the upper end fixed connection of the other end and flexible arm I (3).

4. The multi-section mechanical arm synchronous telescoping device of claim 1, wherein: the driving device (1) is provided with a driving head (1.1); the driving device (1) and the fixed arm (2) are connected through a fixed frame (7), wherein the driving device (1) is connected with the fixed frame (7) through a flexible connecting structure (6), and the fixed arm (2) is fixedly connected with the fixed frame (7) through a bolt; the lower end part of the driving head (1.1) is fixedly connected with a telescopic arm I (3).

5. The multi-section mechanical arm synchronous telescoping device of claim 1, wherein: the driving device (1) is provided with a driving head (1.1); the driving head (1.1) and the fixed arm (2) are connected through a fixed frame (7), wherein the driving head (1.1) is connected with the fixed frame (7) through a flexible connecting structure (6), and the fixed arm (2) is fixedly connected with the fixed frame (7) through a bolt; the driving device (1) is fixedly connected with the telescopic arm I (3).

6. The multi-joint mechanical arm synchronous telescoping device of claim 2, 3, 4 or 5, wherein: the flexible connecting structure (6) is a hinge or a universal connector.

7. The multi-section mechanical arm synchronous telescoping device of claim 1, wherein: the driving device (1) is an electric telescopic cylinder, a hydraulic cylinder or a screw nut driving mechanism.

8. The multi-section mechanical arm synchronous telescoping device of claim 1, wherein: and the telescopic arm is provided with a movable chain wheel and a chain which are driven reversely.

9. A multi-joint mechanical arm synchronous telescoping device according to claim 1, 2 or 3, wherein: the movable chain wheel and the fixed chain wheel (2.1) are pulleys, belt pulleys, synchronous toothed wheels or chain guide wheels; the chain and the fixed chain wheel chain (2.1.1) are steel wire ropes, belts, synchronous toothed belts or iron chains.

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